93 lines
2.8 KiB
Python
93 lines
2.8 KiB
Python
from typing import Tuple, cast
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import numpy
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import pytest
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from numpy.testing import assert_allclose
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from thinc.api import Model, NumpyOps, Softmax_v2
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from thinc.types import Floats2d, Ints1d
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from thinc.util import has_torch, torch2xp, xp2torch
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OPS = NumpyOps()
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inputs = OPS.xp.asarray([[4, 2, 3, 4], [1, 5, 3, 1], [9, 8, 5, 7]], dtype="f")
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outputs = OPS.xp.asarray(
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[
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[0.39948627, 0.05406459, 0.14696279, 0.39948627],
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[0.01562812, 0.8532666, 0.11547707, 0.01562812],
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[0.657233, 0.24178252, 0.01203764, 0.08894681],
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],
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dtype="f",
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)
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def test_unnormalized_softmax_backprop():
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model = Softmax_v2(normalize_outputs=False)
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model.initialize(inputs, outputs)
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_, backprop = model(inputs, is_train=False)
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with pytest.raises(ValueError, match="backprop is not supported"):
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backprop(OPS.xp.zeros_like(outputs))
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# Backprop should not fail when training.
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_, backprop = model(inputs, is_train=True)
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dX = backprop(OPS.xp.zeros_like(outputs))
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assert OPS.xp.all(dX == 0.0)
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def torch_softmax_with_temperature(
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model: Model, X: Floats2d, targets: Ints1d
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) -> Tuple[Floats2d, Floats2d]:
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import torch
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Wt = xp2torch(model.get_param("W"))
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bt = xp2torch(model.get_param("b"))
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temperature = model.attrs["softmax_temperature"]
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Xt = xp2torch(X, requires_grad=True)
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Yt_gold = xp2torch(targets).long()
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XWbt = (Xt @ Wt) + bt
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XWbt_temp = XWbt / temperature
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loss = torch.nn.CrossEntropyLoss()
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output = loss(XWbt_temp, Yt_gold)
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output.backward()
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return cast(
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Floats2d, torch2xp(torch.nn.functional.softmax(XWbt_temp, dim=-1))
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), cast(Floats2d, torch2xp(cast(torch.Tensor, Xt.grad)))
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@pytest.mark.skipif(not has_torch, reason="needs PyTorch")
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@pytest.mark.parametrize("temperature", [0.5, 1.0, 2.0])
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def test_softmax_temperature(temperature):
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model = Softmax_v2(
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temperature=temperature,
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init_W=lambda ops, shape: ops.xp.eye(shape[1], dtype="f"),
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init_b=lambda ops, shape: ops.xp.zeros(shape, dtype="f"),
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)
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X = OPS.xp.arange(-1, 1, 0.2, dtype="f").reshape(1, 10)
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targets = OPS.asarray1i([4])
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Y_gold = OPS.xp.eye(10, dtype="f")[targets]
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model.initialize(X, Y_gold)
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Yt, dXt = torch_softmax_with_temperature(model, X, targets)
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Y, backprop = model(X, is_train=True)
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dX = backprop(Y - Y_gold)
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assert_allclose(Y, Yt, atol=1e-4)
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assert_allclose(dX, dXt, atol=1e-4)
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def test_reject_incorrect_temperature():
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with pytest.raises(ValueError, match=r"softmax temperature.*zero"):
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Softmax_v2(normalize_outputs=False, temperature=0.0)
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model = Softmax_v2(normalize_outputs=False)
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model.attrs["softmax_temperature"] = 0.0
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model.initialize(inputs, outputs)
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with pytest.raises(ValueError, match=r"softmax temperature.*zero"):
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model(inputs, is_train=False)
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